KR101671469B1 - Dynamic positioning system considering status information of gangway - Google Patents

Abstract

The present invention relates to a dynamic location maintenance system that takes into account the state information of a gantry so as to maintain the position of a floating structure without departing from the gantry's operation range based on the gantry state information.
According to an embodiment of the present invention, there is provided a dynamic position maintaining system for controlling a position adjusting device installed in a floating type floating structure, the dynamic position maintaining system comprising: A communication unit for communicating with a gangway system for operating the gangway system; And a controller for generating a control signal for maintaining the predetermined position of the floating structure in accordance with the external information measured from the meter installed in the floating structure and the status information received from the gangway system, And outputting it to the adjustment device is provided

Description

[0001] DYNAMIC POSITIONING SYSTEM CONSIDERING STATUS INFORMATION OF GANGWAY [0002]

The present invention relates to a dynamic location maintenance system that takes into consideration the state information of gangways, and more particularly, to a dynamic location maintenance system that can maintain the position of a floating structure without departing from the operational range of the gangway And more particularly, to a dynamic location maintenance system that considers state information of gang way.

In recent years, due to rapid industrialization and industrial development, limited global resources are gradually getting out of the way, and the stable production and supply of crude oil has become a very important issue.

Recently, along with the development of oil exploration technology on the seabed, large oil companies have felt the necessity of drilling rig with drilling facilities suitable for development of marginal field or deep sea oil field, It is a reality that is actively searching for development.

Floating structures such as floating production storage offloading (FPSO) and drill ship capable of refining and storing oil and gas existing in the underground of the ocean are gradually increasing. Because of the characteristics of these floating structures, it is possible to develop safer oilfields with less fluctuation due to algae, wind direction, wind speed, and position change. The time and maneuverability required for moving to a place are as short as possible and as simple as possible. At this time, the change of the position due to the swing of the ship due to the currents, wind direction, wind speed, and wave height can be solved by the Dynamic Positioning System (DPS) of the floating structure.

However, in the case of the conventional position maintenance system, when the ship and the offshore structures drift beyond the operation range of the gangway due to the inability to take into account the movement of the gangway, the gangway is destroyed and the damage of the workers crossing the gangway occurs .

SUMMARY OF THE INVENTION It is an object of the present invention to provide a dynamic location maintenance system that takes into consideration the state information of a gantry so as to maintain the position of a floating structure without departing from the operation range of the gantry based on the gantry state information.

It is another object of the present invention to provide a dynamic location maintenance system that takes into consideration the state information of gangways that can disassemble gangways in a floating structure in a marine environment where the floating structure can not maintain a predetermined position.

According to an aspect of the present invention, there is provided a dynamic position maintaining system for controlling a position adjusting device installed in a floating type floating structure, comprising: A communication unit for communicating with the gangway system to operate within an operating range based on the gangway system; And a controller for generating a control signal for maintaining the predetermined position of the floating structure in accordance with the external information measured from the meter installed in the floating structure and the status information received from the gangway system, And outputting it to the adjustment device is provided

Preferably, the control unit provides the gangway system disassembly information to the gangway system via the communication unit when the external force information measured from the meter exceeds a predetermined reference range.

The gangway system includes a motion sensor for measuring six degrees of freedom motion, speed, and acceleration of the gangway; A hydraulic device for driving the gangway; And a controller for controlling the hydraulic device to adjust the length and angle of the gangway based on the six degrees-of-freedom motion, speed, and acceleration measured from the motion sensor.

Preferably, the gangway system includes an automatic door for blocking an operator's entry and exit, and the controller closes the automatic door when gangway disassembly information is received from the controller.

And the controller controls the hydraulic system so that the gangway connected to the floating structure is disassembled according to the gangway disassembly information received via the communication unit.

According to another embodiment of the present invention, there is provided a method for maintaining a position of a dynamic position maintaining system for controlling a plurality of position adjusting apparatuses provided on a floating type floating structure, the method comprising: receiving external force information measured from a meter installed in the floating type floating structure step; Receiving status information of a gangway from a gangway system that is operated within an operational range based on status information of a gangway connected to the floating structure; And a step of generating a control signal for maintaining the predetermined position of the floating structure according to the external information and the state information of the gangway received by the receiving step and outputting the generated control signal to the position adjusting device A method for maintaining a position of a dynamic position maintaining system is provided.

And the outputting step may include providing gangway disassembly information to the gangway system when the external information received by the receiving step exceeds a preset reference range.

The method of controlling a position of a dynamic position holding system according to the present invention is characterized in that after the providing step, the hydraulic control device of the gangway system is controlled so that the gangway connected to the floating structure is disassembled according to disassembly information of the gangway The method comprising the steps of:

According to the embodiment of the present invention, the position of the floating structure can be maintained without departing from the operation range of the gangway based on the gangway state information.

Also, according to the embodiment of the present invention, when the external force information measured from the meter exceeds the reference range, that is, in the marine environment where the floating structure can not maintain the predetermined position, the gangway is disassembled from the floating structure, It is possible not only to secure the safety of the operator but also to secure the safety of the gangway. In particular, it is possible to prevent breakage of a gangway and breakage of floating floating structures that can occur due to unacceptable maritime environment as the gangway is dismantled.

1 is a block diagram for explaining a dynamic location maintenance system considering state information of gang way according to an embodiment of the present invention, and Fig.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a position control method for a dynamic position maintaining system,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating a dynamic location maintenance system in which state information of gangways is considered according to an embodiment of the present invention.

Referring to FIG. 1, the dynamic location maintenance system 10 considering the state information of the gangway is configured to communicate with the gangway system 20, which manages the state of the gangway connected to the floating structure, Receives the information and further reflects the received state information of the gangway to output a control signal so that the floating structure can be maintained at the predetermined position without departing from the operation range of the gangway. The operating range of the gangway is up to 80% of the gangway telescopic length (Telescopic Lengh). For example, if the gangway is 10 meters long, if the telephopic length is extended to 8 meters, the gangway is removed from the opponent vessel considering the gangway breakage.

More specifically, the dynamic position maintaining system 10 of the present invention comprises a measuring instrument 11, a control section 12, a position adjusting apparatus 13, a communication section 14, and the like.

The meter 11 measures information necessary for position control of the floating structure.

Specifically, the measuring instrument 11 includes a position measuring instrument, an air flow meter, a motion measuring instrument, a gyroscope, and the like. The position instrument may be a GPS or a Differential GPS (DGPS). The position instrument also includes at least one of a fan beam, Cyscan (using laser reflection), Artemis or RadaScan (using microwave reflection) and Acoustic Sensor (using underwater sound waves) to measure the relative position to the floating structure. It is possible to measure the position of floating structure by using such a position measuring instrument and to control the position.

The wind gauge measures the wind direction and the wind speed and the motiuon reference Uint (MRU) 113 measures the attitude of the floating floating structure, that is, the pitch, the roll and the hive. The gyroscope 114 measures the wind direction Is measured. The measured value measured through the measuring device 11 is output to the control unit 12. [

The control unit 12 receives the detection signal from the position measuring instrument and controls the position adjusting device, for example, the thruster, so that the floating floating structure stops at the target point. For this purpose, for example, And predicts the motion of the floating structure through the processed signal and controls the thruster according to the predicted result. At this time, the controller 12 distributes the thrust force of the thruster using the signal for the wind force calculated through the signal for the control of the thruster and the wind speed measured from the wind gauge. The controller 12 may be implemented as a PLC (Programmable Logic Controller).

Particularly, the control unit 12 is configured to maintain the predetermined position of the floating structure on the basis of the external force information outputted from the measuring instrument 11 and the state information of the gangway received from the gangway system 20 via the communication unit 14 Generates a control signal and outputs the generated control signal to the position adjusting device 13. [

The position adjusting device 13 includes a propeller, a thruster, a rudder, and the like. The propeller maintains the position of the floating structure in the forward and backward directions, and the thrust is controlled by the control unit (12). The thruster maintains the position of the floating structure in the left-right direction, and the thrust is controlled by the control unit (12). In particular, a thruster is an all-directional propulsion system installed at a plurality of, for example, aft and fore, so that the propeller can be rotated 360 degrees on a floating structure, and the floating structure is freely propelled, To generate propulsion force. The rudder adjusts the direction of rotation of the floating structure and is controlled by the control unit (12).

Floating marine structures to which Dynamic Positioning System is applied include drillships, icebreakers, drilling rigs, shuttle tankers (which require self-position control using thruster) shuttle tanker, Floating Production Storage Offloading (FPSO), LNG-RV (LNG-Regasification Vessel), Polar Sailing Cargo, and Passenger Ship.

The dynamic position maintaining system 10 can perform the position control of the floating structure without departing from the operation range of the gangway by reflecting the measured value of the meter 11 and the state information of the gangway.

The state information of the gangway can be acquired in the dynamic location maintenance system 10 through communication with the gangway system 20.

Gangway is a steel bridge to connect a floating marine structure to a land or ship. It has a truss structure. In addition, the gangway is connected to a connection (eg, land, ship, or other floating structure) that is connected to the floating structure, and the length is adjustable within the allowable distance between the floating structure It has a possible structure.

The gangway system 20 that manages the state of the gangway may include a motion sensor 21, a hydraulic device 22, a fixing device 23, a controller 24, and the like.

The motion sensor 21 is a sensor capable of detecting the motion of the gangway, and specifically can measure six degrees of freedom motion, speed and acceleration of the gangway.

The hydraulic device 22 is a device capable of moving the gangway and allows the length, angle, and the like of the gangway to be adjusted in response to the gangway state information measured by the motion sensor 21.

The fixing device 23 is a device capable of adjusting the gangway. The weight of the gangway hydraulics can be tolerated, usually 300 to 400 kg.

The controller 24 receives the measured state information of the gangway from the motion sensor 21 and transmits the received state information of the gangway to the dynamic position maintaining system 10. [

The dynamic location maintenance system 10 receives the state information of the gang way transmitted from the controller 24 through the communication unit 14 and reflects the received state information of the gang way so that the floating floating structure can maintain its position And outputs a control signal to the position adjustment device.

At this time, the dynamic position maintenance system 10 determines whether or not the external force information measured from the meter 11 exceeds a preset reference range, and when the external force information exceeds the reference range, 14 to the gangway system 20. [

The controller 24 of the gangway system 20 controls the hydraulic device 22 in response to the release information of the gangway received from the dynamic location maintenance system 10 so that the gangway is disassembled in the floating structure The length and angle of the gangway are controlled. Accordingly, when an external force that is difficult to maintain the predetermined position of the floating structure is generated, the gangway is disassembled to secure the safety of workers entering and exiting the gangway, and to prevent damage to the floating structure .

In particular, although not shown in the drawings, the gangway system 20 is equipped with an automatic door to block the entry and exit of an operator. Accordingly, the controller 24 controls the automatic door to be closed so as to block the entry and exit of the operator when the disassembly information of the gangway is received from the dynamic position notification system 10.

A position control method of a dynamic position maintaining system considering the state information of gangways having such a configuration will be described with reference to FIG.

FIG. 2 is a flowchart illustrating a method of controlling a position of a dynamic position maintaining system in consideration of state information of gangue ways according to an embodiment of the present invention.

Referring to FIG. 2, the dynamic position maintaining system 10 receives the external force information measured from the measuring instrument 11 (S11). The external force information includes the position of the floating structure, the wind amount, the wind speed, the posture of the floating structure, and the heading angle of the floating structure.

The dynamic location maintenance system 10 also receives the state information of the gangway via the communication unit 14 from the gangway system 20 through communication with the gangway system 20 (S13). The state information of the gangway includes six degrees of freedom motion, acceleration, and acceleration of the gangway.

It is determined whether or not the received external information exceeds the reference range (S15).

If it is determined in step S15 that the external-power information does not exceed the reference range, the dynamic-position-maintaining system 10 determines whether or not the external-force information based on the external-power information measured by the meter 11 and the status information of the gang way received via the communication unit 14 A control signal is generated so that the floating floating structure can be maintained at a predetermined position, and the generated control signal is output to the position adjustment device 13 (S17).

If it is determined in step 15 that the external force information exceeds the reference range, that is, if the floating structure is unable to withstand the marine environment such that the predetermined position can not be maintained, Way disassembly information to the gangway system 20 via the communication unit 14 (S16).

The gangway system 20 controls the hydraulic device 22 so that the gangway can be disassembled from the floating structure according to the gangway disassembly information provided from the dynamic position maintaining system 10 (S18). The gangway can be disassembled in the floating floating structure by controlling at least one of the length and the angle of the gangway through the hydraulic device 22.

In this way, while the floating structure is maintained at the predetermined position, the gangway can be disassembled to restrict the access to the gangway in a difficult sea environment, and the gangway can be actively disassembled in the floating structure.

The invention being thus described, it will be obvious that the same way may be varied in many ways. Such modifications are intended to be within the spirit and scope of the invention as defined by the appended claims.

10: Dynamic Positioning System 11: Meter
12: control unit 13: position adjusting device
14: communication unit 20: gangway system
21: Motion sensor 22: Hydraulic device
23: Fixing device 24: Controller

Claims (8)

A dynamic position maintaining system for controlling a position adjusting device installed in a floating floating structure,
A communication unit for communicating with a gangway system that operates within an operational range based on status information of a gangway connected to the floating structure; And
And a controller for generating a control signal for maintaining the predetermined position of the floating structure in accordance with the external information measured from the meter installed in the floating structure and the status information received from the gangway system, And outputting the result to the device,
The gangway system
A motion sensor for measuring six degrees of freedom motion, speed, and acceleration of the gangway;
A hydraulic device for driving the gangway; And
And a controller for controlling the hydraulic device to adjust the length and angle of the gangway based on the six degrees-of-freedom motion, speed, and acceleration measured from the motion sensor. The method according to claim 1,
The control unit
And when the external-power information measured by the meter exceeds a preset reference range, the disconnection information of the gangway is provided to the gangway system through the communication unit. delete The method according to claim 1,
The gangway system
Including the automatic door to block worker access,
The controller
And closes the automatic door when the gangway disassembly information is received from the controller. The method according to claim 1,
The controller
And controls the hydraulic system so that the gangway connected to the floating structure is disassembled according to the gangway disassembly information received via the communication unit. delete delete delete

Images